CN113940482A

CN113940482A - Sole and shoe with cushioning function

Info

Publication number: CN113940482A
Application number: CN202111386235.5A
Authority: CN
Inventors: 黄柱铭; 骆锦伟
Original assignee: QUANZHOU PEAK SHOES CO Ltd
Current assignee: QUANZHOU PEAK SHOES CO Ltd
Priority date: 2021-11-22
Filing date: 2021-11-22
Publication date: 2022-01-18

Abstract

The application relates to the technical field of shoes, in particular to a sole with a buffering function and a shoe, wherein the sole comprises a middle sole connecting layer and a middle sole layer which are arranged in a stacked mode; one side of the insole connecting layer is arranged towards the vamp, and the other side of the insole connecting layer is arranged towards the insole layer; the insole connecting layer is provided with a hollow structure and a connecting structure surrounding the hollow structure, one side of the connecting structure facing the vamp is connected with the vamp, and one side of the connecting structure far away from the vamp is connected with the insole layer; the area of the middle bottom layer corresponding to the hollow structure forms a first buffer area, and the part of the middle bottom layer connected with the connecting structure and the connecting structure form a second buffer area; the compression modulus of the second buffer area is larger than that of the first buffer area; the adhesive can be prevented from being adhered to the shoe tree placed between the vamp and the insole connecting layer, and damage to the shoe tree is avoided; and through setting up the first buffer zone and the second buffer zone of different compression moduli, can improve the support to the wearer foot, also can promote buffering effect simultaneously.

Description

Sole and shoes with buffer function

Technical Field

The application relates to the technical field of shoes, in particular to a sole with a buffering function and a shoe.

Background

The shoes are one of the most common living goods, are indispensable in daily life of people, and along with the continuous improvement of the quality of life of people, the requirements on the shoes are gradually increased, and the comfort can be improved while the impact transmitted to the soles is relieved, so that the shoes become one of the standards for selecting the shoes by people.

In order to improve the comfort of the sole in the prior art, the sole is provided with hard supporting materials or foam with different compression moduli is combined into the sole, so that the production cost is increased. Often, a new set of sole assembly schemes and molds need to be redesigned and developed each time the product is iteratively updated, again increasing production costs.

Therefore, there is an urgent need for an improved solution to the above problems.

Disclosure of Invention

In order to solve the technical problems, the application provides a sole and a shoe with a buffering function, the sole and the shoe are connected with the upper through one side, facing the upper, of a connecting structure, and one side, far away from the upper, of the connecting structure is connected with the middle sole layer, so that an adhesive can be prevented from being adhered to a shoe tree placed between the upper and the middle sole connecting layer, the shoe tree can be prevented from being damaged, and the production cost is saved to a certain extent; and through setting up hollow out construction with connection structure forms the first buffer zone and the second buffer zone of different compression moduli, can improve the support to the person's of dress foot, reduces the tensile degree of person's of dress foot in the motion process to reach and promote the sports efficiency, reduce the injured risk of person's of dress foot, also can promote buffering effect simultaneously, improve the comfort of foot.

The application discloses a sole with a buffering function, which comprises a middle sole connecting layer and a middle sole layer which are arranged in a stacked mode;

one side of the insole connecting layer faces towards the vamp, and one side of the insole connecting layer, which is far away from the vamp, faces towards the insole layer;

the insole connecting layer is provided with a hollow structure and a connecting structure surrounding the hollow structure, one side of the connecting structure facing the vamp is connected with the vamp, and one side of the connecting structure far away from the vamp is connected with the insole layer;

the area of the middle bottom layer corresponding to the hollowed-out structure forms a first buffer area, and the part of the middle bottom layer connected with the connecting structure and the connecting structure form a second buffer area; the second buffer zone has a compressive modulus greater than the compressive modulus of the first buffer zone.

Furthermore, along the length direction of the sole, a front sole area, an arch area and a rear heel area are sequentially arranged on the insole connecting layer; the hollowed-out structure is arranged in at least one of a front sole area, a rear heel area and an arch area on the insole connecting layer.

Furthermore, the hollowed-out structure is arranged in a front sole area and/or a rear heel area on the insole connecting layer.

Further, along the length direction of the sole, the hollowed-out structures sequentially penetrate through the front sole area, the arch area and the rear heel area;

the connecting structure is 0.1-1cm in width under the condition that the hollow structure sequentially penetrates through the front sole area, the arch area and the rear heel area.

Further, under the same external force, the elastic deformation amount of the first buffer area in unit time is larger than that of the second buffer area in unit time.

The shoe cover further comprises an adhesive layer and a middle sole cloth layer, wherein one side of the middle sole cloth layer, which is far away from the shoe upper, is bonded with the middle sole layer through the adhesive layer;

one side of the middle sole cloth layer facing the vamp is connected with the vamp through an adhesive or a connecting piece.

Further, the shape of the midsole connecting layer is matched with that of the midsole layer, and the length of the midsole connecting layer is larger than that of the midsole layer;

the thickness of the middle sole connecting layer is 0.1-0.5 cm.

Further, a supporting protrusion for supporting the foot of the wearer is arranged on the connecting structure, and the supporting protrusion is arranged towards the upper.

Further, the insole connecting layer comprises at least one of a non-woven fabric insole connecting layer, a rubber insole connecting layer, a latex insole connecting layer and a foaming insole connecting layer.

The application also protects a shoe for buffering, which comprises an upper and the sole with the buffering function;

one side of the middle sole connecting layer facing the vamp is connected with the vamp, and one side of the middle sole connecting layer far away from the vamp is connected with the middle sole layer.

The embodiment of the application has the following beneficial effects:

according to the shoe, one side, facing the upper, of the connecting structure is connected with the upper, one side, far away from the upper, of the connecting structure is connected with the middle sole layer, so that the situation that an adhesive is adhered to a shoe tree placed between the upper and the middle sole connecting layer can be avoided, the shoe tree is prevented from being damaged, and the production cost is saved to a certain extent; and through setting up hollow out construction with connection structure forms the first buffer zone and the second buffer zone of different compression moduli, can improve the support to the person's of dress foot, reduces the tensile degree of person's of dress foot in the motion process to reach and promote the sports efficiency, reduce the injured risk of person's of dress foot, also can promote buffering effect simultaneously, improve the comfort of foot.

Drawings

In order to more clearly illustrate the technical solution of the present application, the drawings used in the description of the embodiment or the prior art will be briefly described below. It is obvious that the drawings in the following description are only some embodiments of the application, and that for a person skilled in the art, other drawings can be derived from them without inventive effort.

FIG. 1 is a view showing a structure of a shoe sole according to the present embodiment;

FIG. 2 is a schematic representation of the construction of the midsole attachment layer in a first embodiment;

FIG. 3 is a schematic representation of the construction of the midsole attachment layer in a second embodiment;

FIG. 4 is a schematic representation of the midsole attachment layer in a third embodiment;

FIG. 5 is a schematic representation of a fourth aspect of the present embodiment of the midsole layer;

FIG. 6 is a schematic representation of a fifth aspect of the present embodiment of the midsole attachment layer;

FIG. 7 is a schematic representation of a sixth aspect of the present embodiment of the midsole layer;

fig. 8 is a structural diagram of the midsole connecting layer of the present embodiment without the hollow structure.

Wherein the reference numerals in the figures correspond to:

1-a midsole connecting layer; 2-middle bottom layer; 3-lower bottom layer; 4-shoe pad; 11-a hollow structure; 12-a linking structure; 13-forefoot region; 14-arch region; 15-rear heel area.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the application described herein are capable of operation in sequences other than those illustrated or described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

The prior art has the following defects: in order to improve the comfort of the sole in the prior art, the sole is provided with hard supporting materials or foam with different compression moduli is combined into the sole, so that the production cost is increased. Often, a new set of sole assembly schemes and molds need to be redesigned and developed each time the product is iteratively updated, again increasing production costs.

Aiming at the defects of the prior art, one side of the connecting structure facing the vamp is connected with the vamp, and one side of the connecting structure facing away from the vamp is connected with the middle sole layer, so that the phenomenon that an adhesive is adhered to a shoe tree placed between the vamp and the middle sole connecting layer can be avoided, the shoe tree is prevented from being damaged, and the production cost is saved to a certain extent; and through setting up hollow out construction with connection structure forms the first buffer zone and the second buffer zone of different compression moduli, can improve the support to the person's of dress foot, reduces the tensile degree of person's of dress foot in the motion process to reach and promote the sports efficiency, reduce the injured risk of person's of dress foot, also can promote buffering effect simultaneously, improve the comfort of foot.

Example 1

Referring to fig. 1 to 8, a sole with a buffering function comprises a middle sole connecting layer 1 and a middle sole layer 2 which are arranged in a stacked manner;

one side of the insole connecting layer 1 faces the vamp, and one side of the insole connecting layer 1, which is far away from the vamp, faces the insole layer 2;

the insole connecting layer 1 is provided with a hollow structure 11 and a connecting structure 12 surrounding the hollow structure 11, one side of the connecting structure 12 facing the vamp is connected with the vamp, and one side of the connecting structure 12 away from the vamp is connected with the insole layer 2;

the area of the middle bottom layer 2 corresponding to the hollow structure 11 forms a first buffer area, and the part of the middle bottom layer 2 connected with the connecting structure 12 and the connecting structure 12 form a second buffer area; the second buffer zone has a compressive modulus greater than the compressive modulus of the first buffer zone.

It should be noted that: in this embodiment to form different compression modulus's first buffer zone and second buffer zone through setting up hollow out construction 11 and connection structure 12, can improve the support to the wearer foot, reduce the tensile degree of wearer foot in the motion process, thereby reach and promote the motion efficiency, reduce the injured risk of wearer foot, also can promote buffering effect simultaneously, improve foot's comfort.

It should also be noted that: the prior art midsole connecting layer 1 is an essential part of the shoe manufacturing process. In the traditional manufacturing method, the midsole connecting layer 1 needs to be sewn at the bottom of the vamp to form a sock type structure integrally. Then a shoe tree is plugged into the sock type structure to tighten the vamp; brushing glue on the insole connecting layer 1, attaching the insole connecting layer to the sole, and drawing out the shoe tree after the binder is solidified; the insole connecting layer 1 can help the vamp and the sole to be tightened when combined, and prevent the adhesive from being adhered to a shoe tree; because the shoe tree is a production tool which needs to be recycled and is sensitive to size, the shoe tree needs to be cleaned after being stuck with the adhesive, otherwise the shoe tree is scrapped; through connection structure 12 one side towards the vamp in this embodiment is connected with the vamp, and connection structure 12 keeps away from one side of vamp and is connected with insole layer 2, and this can avoid the binder to glue on placing the shoe tree between vamp and insole articulamentum 1, avoids damaging the shoe tree, and this has practiced thrift manufacturing cost to a certain extent.

In some possible embodiments, the elastic deformation amount per unit time of the first buffer area is larger than the elastic deformation amount per unit time of the second buffer area under the same external force.

It should also be noted that: under the action of the same external force and in unit time, the compression modulus of the first buffer area is smaller than that of the second buffer area; the hardness of the second buffer area is greater than that of the first buffer area, the second buffer area can provide good support for the feet of the wearer, and the stretching degree of the feet of the wearer can be reduced, so that the exercise efficiency is improved, and the risk of injury of the feet of the wearer is reduced; at this time, the first buffer area is relatively soft relative to the second buffer area, so that the comfortable sensation of the feet of the wearer can be improved while the buffer effect is provided for the feet of the wearer.

In some possible embodiments, along the length direction of the sole, the midsole connecting layer 1 is provided with a forefoot region 13, an arch region 14 and a heel region 15 in this order; at least one of the front sole area 13, the rear heel area 15 and the arch area 14 on the midsole connecting layer 1 is provided with a hollow structure 11.

Specifically, forefoot region 13 corresponds with the forefoot of the wearer, rear heel region 15 corresponds with the heel of the wearer, and arch region 14 corresponds with the arch of the wearer.

In some possible embodiments, the forefoot region 13 and/or the heel region 15 of the midsole connecting layer 1 are provided with the hollow structures 11, and the specific arrangement positions are adjusted according to the compression modulus and the feedback speed of different regions of the sole, which is not limited herein.

It should also be noted that: in this embodiment, the hollow structure 11 is arranged to realize that different compression moduli are arranged in different areas of the sole. When the product is updated iteratively, a set of mold of the middle bottom layer 2 is not required to be redesigned and opened, and only the hollow-out structures 11 are arranged at different positions on the middle bottom connecting layer 1, so that the increased production cost is far lower than the cost of replacing the mold, and the later-stage adjustment is also convenient and fast.

In other possible embodiments, as shown in fig. 2, both the forefoot area 13 and the rear heel area 15 of the midsole connecting layer 1 are provided with cutouts 11.

Specifically, the hollow structure 11 is disposed in the forefoot region 13 and close to the lateral side of the forefoot of the wearer, the forefoot region 13 coinciding with the projection of the forefoot of the wearer, and the rear heel region 15 and close to the lateral side of the heel of the wearer or the rear heel region 15 coinciding with the projection of the heel of the wearer.

It should also be noted that: as shown in fig. 2, in the first case, the forefoot area 13 and the rear heel area 15 of the midsole connecting layer 1 are both provided with the hollow structures 11;

as shown in fig. 3, in the second case, the forefoot area 13 of the midsole connecting layer 1 and the heel area 15 close to the outer side of the heel of the wearer are both provided with the hollowed-out structures 11;

as shown in FIG. 4, in the third case, the hollowed-out structure 11 is arranged in the heel area 15 of the midsole connecting layer 1, which is close to the outer side of the heel of the wearer;

as shown in fig. 5, in the fourth case, a hollowed-out structure 11 is arranged in a forefoot area 13 of the midsole connecting layer 1, which is close to the outer side of the forefoot of the wearer;

as shown in fig. 6, in the fifth case, the forefoot area 13, the arch area 14 and the heel area 15 of the midsole connecting layer 1 are all provided with the hollowed-out structures 11;

in the sixth case, as shown in fig. 7, the hollow 11 is provided in the forefoot area 13 of the midsole attach layer 1 near the outer side of the forefoot of the wearer, the arch area 14 near the outer side of the arch of the wearer, and the heel area 15 near the outer side of the heel of the wearer.

In some possible embodiments, the soft tissue structure at the arch may undergo stretching and shrinking during running during long-distance racing, and in this embodiment, the stretching and shrinking process is reduced by providing the hollow-out structures 11 at a part of the arch region 14 or not providing the hollow-out structures 11 at the arch region 14, so as to improve the compression modulus of the arch region 14, improve the support for the soft tissue of the arch, and reduce the stretching degree of the soft tissue of the arch during running.

In other possible embodiments, in sprinting, the wearer's forefoot requires faster feedback, i.e. less change in the midsole shape and a higher compression modulus, and therefore it is desirable to keep the forefoot region 13 of the forefoot free of the cutouts 11.

In another possible embodiment, for some heel-ridden racing runners, a faster transition between the arch and heel is required during the sport, leaving the heel area 15 and arch area 14 to increase the compression modulus and thus the feedback speed.

In some possible embodiments, the cutouts 11 extend through the forefoot region 13, the arch region 14, and the heel region 15, respectively, along the length of the sole.

Specifically, the hollow structure sequentially penetrates through a forefoot area 13, a heel area 15 and a partial arch area 14; this can provide deformation space for the insole layer 2 to reduce the influence of the hardened shell layer formed after the binder solidifies on the feel of the wearer's foot when adhering the insole connecting layer 1. In the shoes aiming at leisure, the soft and elastic foot feeling can be brought to the whole palm, and the comfort of the shoes is further improved.

In other possible embodiments, the openwork structure 11 extends through a portion of the forefoot region 13, a portion of the rear heel region 15, and a portion of the arch region 14 in that order.

Specifically, a portion of forefoot region 13 is a region near the outer side of the forefoot of the wearer, a portion of rear heel region 15 is a region near the outer side of the rear heel of the wearer, and a portion of the heel region is a region near the outer side of the arch of the wearer; in this embodiment, the hollowed-out structures 11 are not disposed on the inner sides of the arch and the heel, so as to achieve the effect of relatively high compression modulus on the inner sides of the arch and the heel, and further suppress the pronation effect.

In some possible embodiments, the connecting structure 12 has a width of 0.1-1cm, with the cutouts 11 extending through the ball region 13, the arch region 14 and the heel region 15 in that order.

Specifically, the midsole connecting layer 1 is provided with a hollow structure 11 in an area formed by the forefoot, the arch and the rear heel of the foot of the wearer.

In some possible embodiments, the connecting structure 12 includes an adhesive layer and a midsole layer, and a side of the midsole layer away from the upper is bonded to the midsole layer 2 through the adhesive layer;

In some possible embodiments, the connector is at least one of a wire or a snap-fit arrangement.

In some possible embodiments, the shape of the midsole connecting layer 1 is adapted to the shape of the midsole layer 2, and the length of the midsole connecting layer 1 is greater than the length of the midsole layer 2.

In some possible embodiments, the thickness of the midsole connecting layer 1 is 0.1-0.5 cm.

In some possible embodiments, the midsole connecting layer 1 includes at least one of a non-woven midsole connecting layer 1, a rubber midsole connecting layer 1, a latex midsole connecting layer 1, and a foamed midsole connecting layer 1.

The application also protects a shoe for buffering, which comprises an upper and the shoe sole with the buffering function;

one side of the insole connecting layer 1 facing the vamp is connected with the vamp, and one side of the insole connecting layer 1 far away from the vamp is connected with the insole layer 2.

Shoes including the sole that has buffer function form different compression modulus's first buffer zone and second buffer zone through setting up hollow out construction 11 and connection structure 12, can improve the support to wearer's foot, reduce the tensile degree of wearer's foot in the motion process to reach promotion motion efficiency, reduce the injured risk of wearer's foot, also can promote buffering effect simultaneously, improve foot's comfort.

Example 2

It should be noted that: the main differences between this embodiment and embodiment 1 are: in embodiment 1, only the hollow structures 11 are provided, and in this embodiment, the supporting protrusions are provided on the connecting structures 12 while the hollow structures 11 are provided.

In some possible embodiments, the support protrusions are for supporting a foot of a wearer, and the support protrusions are disposed toward the upper.

In some possible embodiments, the support protrusion comprises at least one of a columnar protrusion, a prismoid protrusion, and a spherical protrusion.

In this document, the terms front, back, upper and lower are used to define the components in the drawings and the positions of the components relative to each other, and are used for clarity and convenience of the technical solution. It is to be understood that the use of the directional terms should not be taken to limit the scope of the claims.

The embodiments and features of the embodiments described herein above can be combined with each other without conflict.

The above disclosure is only one preferred embodiment of the present application, and certainly does not limit the scope of the present application, which is therefore intended to cover all modifications and equivalents of the claims.

Claims

1. A shoe sole with a buffering function, characterized in that the shoe sole comprises a midsole connecting layer (1) and a midsole layer (2) arranged in layers;

One side of the midsole connection layer (1) is arranged towards the upper, and the side of the midsole connection layer (1) away from the upper is arranged towards the middle bottom layer (2);

The midsole connecting layer (1) is provided with a hollow structure (11) and a connecting structure (12) surrounding the hollow structure (11), the connecting structure (12) facing the side of the upper and the The upper is connected, and the side of the connecting structure (12) away from the upper is connected with the middle bottom layer (2);

The region of the middle bottom layer (2) corresponding to the hollow structure (11) forms a first buffer zone, and the part of the middle bottom layer (2) connected with the connecting structure (12) and the connecting structure ( 12) Forming a second buffer area; the compressive modulus of the second buffer area is greater than the compressive modulus of the first buffer area.

2. The sole with cushioning function according to claim 1, characterized in that, along the length direction of the sole, the midsole connecting layer (1) is sequentially provided with a forefoot area (13), an arch of the foot area (14) and rear heel area (15);

The hollow structure (11) is provided on at least one of the forefoot ball region (13), the rear heel region (15) and the foot arch region (14) on the midsole connecting layer (1).

3. The sole with cushioning function according to claim 2, wherein the forefoot area (13) and/or the rear heel area (15) on the midsole connecting layer (1) are provided with the Hollow structure (11).

The sole with cushioning function according to claim 2, characterized in that, along the length direction of the sole, the hollow structure (11) sequentially penetrates the forefoot area (13), the arch of the foot area (14) and said rear heel area (15);

When the hollow structure (11) penetrates the forefoot area (13), the arch area (14) and the rear heel area (15) in sequence, the width of the connection structure (12) is 0.1-1cm.

5 . The sole with cushioning function according to claim 1 , wherein, under the same external force, the amount of elastic deformation per unit time of the first cushioning area is greater than that of the second cushioning area per unit time. 6 . amount of elastic deformation.

6. The shoe sole with cushioning function according to claim 1, wherein the connecting structure (12) comprises an adhesive layer and a midsole fabric layer, and the midsole fabric layer is away from the side of the shoe upper Bonding with the middle bottom layer (2) through the adhesive layer;

The side of the midsole fabric layer facing the upper is connected to the upper through an adhesive or a connecting piece.

7. The sole with buffering function according to claim 1, wherein the shape of the midsole connecting layer (1) is adapted to the shape of the midsole (2), and the midsole connecting layer ( The length of 1) is greater than the length of the middle bottom layer (2);

The thickness of the midsole connecting layer (1) is 0.1-0.5 cm.

8. The sole with cushioning function according to claim 1, wherein the connecting structure (12) is provided with a support protrusion for supporting the wearer's foot, and the support protrusion faces the shoe face settings.

9. The sole with cushioning function according to claim 1, wherein the midsole connecting layer (1) comprises a non-woven midsole connecting layer (1), a rubber midsole connecting layer (1), a latex At least one of the midsole connection layer (1) and the foamed midsole connection layer (1).

10. A shoe for cushioning, characterized in that it comprises a shoe upper and the sole with cushioning function according to any one of claims 1-9;

The side of the midsole connection layer (1) facing the upper is connected to the upper, and the side of the midsole connection layer (1) away from the upper is connected to the midsole layer (2). )connect.